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A number of Octave high level plot functions return groups of other
graphics objects or they return graphics objects that have their
properties linked in such a way that changes to one of the properties
results in changes in the others. A graphic object that groups other
objects is an hggroup
Create handle graphics group object with axes parent hax.
If no parent is specified, the group is created in the current axes.
Multiple property/value pairs may be specified for the hggroup, but they must appear in pairs.
The optional return value h is a graphics handle to the created hggroup object.
Programming Note: An hggroup is a way to group base graphics objects such
as line objects or patch objects into a single unit which can react
appropriately. For example, the individual lines of a contour plot are
collected into a single hggroup so that they can be made visible/invisible
with a single command, set (hg_handle, "visible", "off")
.
See also: addproperty, addlistener.
For example a simple use of a hggroup
might be
x = 0:0.1:10; hg = hggroup (); plot (x, sin (x), "color", [1, 0, 0], "parent", hg); hold on plot (x, cos (x), "color", [0, 1, 0], "parent", hg); set (hg, "visible", "off");
which groups the two plots into a single object and controls their
visibility directly. The default properties of an hggroup
are
the same as the set of common properties for the other graphics
objects. Additional properties can be added with the addproperty
function.
Create a new property named name in graphics object h.
type determines the type of the property to create. args usually contains the default value of the property, but additional arguments might be given, depending on the type of the property.
The supported property types are:
string
A string property. arg contains the default string value.
any
An un-typed property. This kind of property can hold any octave value. args contains the default value.
radio
A string property with a limited set of accepted values. The first argument must be a string with all accepted values separated by a vertical bar (’|’). The default value can be marked by enclosing it with a ’{’ ’}’ pair. The default value may also be given as an optional second string argument.
boolean
A boolean property. This property type is equivalent to a radio property with "on|off" as accepted values. arg contains the default property value.
double
A scalar double property. arg contains the default value.
handle
A handle property. This kind of property holds the handle of a graphics object. arg contains the default handle value. When no default value is given, the property is initialized to the empty matrix.
data
A data (matrix) property. arg contains the default data value. When no default value is given, the data is initialized to the empty matrix.
color
A color property. arg contains the default color value. When no default color is given, the property is set to black. An optional second string argument may be given to specify an additional set of accepted string values (like a radio property).
type may also be the concatenation of a core object type and a valid property name for that object type. The property created then has the same characteristics as the referenced property (type, possible values, hidden state…). This allows one to clone an existing property into the graphics object h.
Examples:
addproperty ("my_property", gcf, "string", "a string value"); addproperty ("my_radio", gcf, "radio", "val_1|val_2|{val_3}"); addproperty ("my_style", gcf, "linelinestyle", "--");
See also: addlistener, hggroup.
Once a property in added to an hggroup
, it is not linked to any
other property of either the children of the group, or any other
graphics object. Add so to control the way in which this newly added
property is used, the addlistener
function is used to define a
callback function that is executed when the property is altered.
Register fcn as listener for the property prop of the graphics object h.
Property listeners are executed (in order of registration) when the property is set. The new value is already available when the listeners are executed.
prop must be a string naming a valid property in h.
fcn can be a function handle, a string or a cell array whose first element is a function handle. If fcn is a function handle, the corresponding function should accept at least 2 arguments, that will be set to the object handle and the empty matrix respectively. If fcn is a string, it must be any valid octave expression. If fcn is a cell array, the first element must be a function handle with the same signature as described above. The next elements of the cell array are passed as additional arguments to the function.
Example:
function my_listener (h, dummy, p1) fprintf ("my_listener called with p1=%s\n", p1); endfunction addlistener (gcf, "position", {@my_listener, "my string"})
See also: dellistener, addproperty, hggroup.
Remove the registration of fcn as a listener for the property prop of the graphics object h.
The function fcn must be the same variable (not just the same value),
as was passed to the original call to addlistener
.
If fcn is not defined then all listener functions of prop are removed.
Example:
function my_listener (h, dummy, p1) fprintf ("my_listener called with p1=%s\n", p1); endfunction c = {@my_listener, "my string"}; addlistener (gcf, "position", c); dellistener (gcf, "position", c);
See also: addlistener.
An example of the use of these two functions might be
x = 0:0.1:10; hg = hggroup (); h = plot (x, sin (x), "color", [1, 0, 0], "parent", hg); addproperty ("linestyle", hg, "linelinestyle", get (h, "linestyle")); addlistener (hg, "linestyle", @update_props); hold on plot (x, cos (x), "color", [0, 1, 0], "parent", hg); function update_props (h, d) set (get (h, "children"), "linestyle", get (h, "linestyle")); endfunction
that adds a linestyle
property to the hggroup
and
propagating any changes its value to the children of the group. The
linkprop
function can be used to simplify the above to be
x = 0:0.1:10; hg = hggroup (); h1 = plot (x, sin (x), "color", [1, 0, 0], "parent", hg); addproperty ("linestyle", hg, "linelinestyle", get (h, "linestyle")); hold on h2 = plot (x, cos (x), "color", [0, 1, 0], "parent", hg); hlink = linkprop ([hg, h1, h2], "color");
Link graphic object properties, such that a change in one is propagated to the others.
The input h is a vector of graphic handles to link.
prop may be a string when linking a single property, or a cell array of strings for multiple properties. During the linking process all properties in prop will initially be set to the values that exist on the first object in the list h.
The function returns hlink which is a special object describing the
link. As long as the reference hlink exists the link between graphic
objects will be active. This means that hlink must be preserved in
a workspace variable, a global variable, or otherwise stored using a
function such as setappdata
, guidata
. To unlink properties,
execute clear hlink
.
An example of the use of linkprop
is
x = 0:0.1:10; subplot (1,2,1); h1 = plot (x, sin (x)); subplot (1,2,2); h2 = plot (x, cos (x)); hlink = linkprop ([h1, h2], {"color","linestyle"}); set (h1, "color", "green"); set (h2, "linestyle", "--");
See also: linkaxes.
Link the axis limits of 2-D plots such that a change in one is propagated to the others.
The axes handles to be linked are passed as the first argument hax.
The optional second argument is a string which defines which axis limits will be linked. The possible values for optstr are:
"x"
Link x-axes
"y"
Link y-axes
"xy"
(default)Link both axes
"off"
Turn off linking
If unspecified the default is to link both X and Y axes.
When linking, the limits from the first axes in hax are applied to the other axes in the list. Subsequent changes to any one of the axes will be propagated to the others.
See also: linkprop, addproperty.
These capabilities are used in a number of basic graphics objects.
The hggroup
objects created by the functions of Octave contain
one or more graphics object and are used to:
For example the stem
function creates a stem series where each
hggroup
of the stem series contains two line objects representing
the body and head of the stem. The ydata
property of the
hggroup
of the stem series represents the head of the stem,
whereas the body of the stem is between the baseline and this value. For
example
h = stem (1:4) get (h, "xdata") ⇒ [ 1 2 3 4]' get (get (h, "children")(1), "xdata") ⇒ [ 1 1 NaN 2 2 NaN 3 3 NaN 4 4 NaN]'
shows the difference between the xdata
of the hggroup
of a stem series object and the underlying line.
The basic properties of such group objects is that they consist of one
or more linked hggroup
, and that changes in certain properties of
these groups are propagated to other members of the group. Whereas,
certain properties of the members of the group only apply to the current
member.
In addition the members of the group can also be linked to other
graphics objects through callback functions. For example the baseline of
the bar
or stem
functions is a line object, whose length
and position are automatically adjusted, based on changes to the
corresponding hggroup elements.
• Data Sources in Object Groups: | ||
• Area Series: | ||
• Bar Series: | ||
• Contour Groups: | ||
• Error Bar Series: | ||
• Line Series: | ||
• Quiver Group: | ||
• Scatter Group: | ||
• Stair Group: | ||
• Stem Series: | ||
• Surface Group: |
Next: Graphics Toolkits, Previous: Application-defined Data, Up: Advanced Plotting [Contents][Index]